Student Exploration: DNA Fingerprint Analysis Vocabulary: codon, DNA, DNA fingerprint, genotype, identical twins, nitrogenous base, phenotype, trait Prior Knowledge Questions (Do these BEFORE using the Gizmo. ) 1. The two navy officers shown at left are identical twins. Why do you think identical twins look so similar? Identical twins look so similar because identical twins have the same genetic makeup, meaning, the same DNA (same nitrogenous bases).
This is because by they are fertilized by the same egg, making them identical. 2.
Most brothers and sisters don’t look exactly the same. What causes most siblings to have different appearances? Most siblings have different appearances because each child inherits different gene from either one of the parents. These different genes can either be dominant or recessive depending on the parent which causes most siblings to have different appearances. Gizmo Warm-up Most of an organism’s traits, or characteristics, are coded for by DNA. Traits are determined by a unique sequence of nitrogenous bases in the DNA molecule. Except for identical twins, the order of every individual’s nitrogenous bases is unique.
Scientists use this fact when studying DNA fingerprints—patterns of bands made from analyzing a strand of DNA. In the DNA Fingerprint Analysis Gizmo™, you will analyze DNA fingerprints of frogs. 1. Select the POPULATION tab. What are the three main traits that vary between the frogs? The three main traits that differ between the frogs are the spots on their body, the color of the eyes and the color of the skin. 2. Which frog would you expect to have the most similar DNA to frog A? Why? Frog A would have the most similar DNA towards frog I.
The Essay on Cloning 7 Identical Twin
Cloning The announcement one year ago that Scottish scientists had successfully cloned an adult sheep raised eyebrows all over the world. While scientists generally responded with great enthusiasm, ordinary people as well as theologians and ethicist's immediately and prematurely responded with outrage. The problem with cloning is not that it is wrong or unethical, but the fact that the general ...
This is because they both contain the same traits, for example, both have spots on their body, both are color orange and have the same eye color as well. Activity A: Identical twins| Get the Gizmo ready: * Select the FIND THE TWINS tab. | | Question: How are DNA fingerprints used to analyze relationships? 1. Observe: Look at the three frogs on the TWINS tab. How does their appearance compare? The three frogs contain the same traits. This means they all are colored orange, and have pink eyes. Also, all three frogs contain black spots on their body. 2. Predict: What do you expect the DNA fingerprints of the three frogs to look like?
Yes because I predict it from looking at the same traits they have. 3. Identify: Drag frog A to the scanning station and click SCAN. Drag the resulting DNA fingerprint to the bin at the upper right of the Gizmo. Each band on the fingerprint represents a single nitrogenous base of DNA. The band is dark if that base is present and pink if that base is absent. Scan frogs B and C. Drag their DNA fingerprints into the bin. If two frogs are identical twins, they will have exactly the same DNA fingerprint. Compare the three fingerprints. Could any of these frogs be identical twins? If so, which frogs?
Yes because frogs with similar characteristics can contain the same DNA. The frogs that are identical twins are frog A and frog B. 4. Analyze: DNA is composed of four different nitrogenous bases. For the type of DNA fingerprint used by the Gizmo, a complete DNA fingerprint would have scan readouts for all four nitrogenous bases. Knowing this, why can you not be entirely certain the frogs are identical twins using the simplified fingerprints on the Gizmo? This is because, on the Gizmo it only shows one DNA fingerprint scan, meaning that it scans only one out of the four nitrogenous bases.
Therefore, it does not give accurate results, resulting certain frogs not being entirely identical twins. 5. Apply: Click New. For the new frogs, find the possible pair of identical twins. A. Which two frogs could be identical twins? Frog A and C B. How do you think DNA fingerprints can be used in the real world to identify relationships between individuals? It can be used in the real world to identify relationships between individuals by determining if two people are related. It could also be used to touch upon heritage from looking at back in generations.
The Term Paper on Criminology DNA Forensic Science
We begin life as a single cell zygote, about 0. 1mm in diameter. The numerous biological instructions that enable our developmental and functional processes to occur from zygote to adult are encoded in the deoxyribonucleic acid (DNA). Forensic DNA analysis involves the intersection of several scientific disciplines, including molecular biology, genetics, and statistical analysis (Lynch, 2013). In ...
DNA fingerprints can also be used to identify a victim and help identify suspects in a crime scene. Lastly it can be used for personal identification. In some places, it requires you to give DNA fingerprints in order to identify a person. Activity B: Comparing bands| Get the Gizmo ready: * Select the POPULATION tab. | | Introduction: In this frog population, traits such as eye color, skin color, and the presence or absence of spots are coded for by DNA. The nitrogenous bases in a strand of DNA make up an organisms genotype. The physical expression of the genotype is the phenotype.
Question: How are DNA fingerprints used to analyze traits? 1. Observe: Describe frog A’s phenotype. Frog’s A has a presence of spots located on the body, and the eye color is pink. Also, the skin color is orange. 2. Compare: Which frogs share frog A’s skin color, but not its eye color or spots? Frogs H and P. 3. Analyze: A group of three consecutive nitrogenous bases in a strand of DNA is a codon. In a real organism, hundreds of codons code for a trait. In the Gizmo, a single codon codes for a trait. Scan frog A and the two frogs that share only frog A’s skin color. Turn on the Comparison guides, and compare the three DNA fingerprints.
Codon 1 is made up of bases 1–3, the codon 2 is made up of bases 4–6, etc. The last two bases are part of codon 7, which was cut off when the scan was made. A. Which codon or codons are identical in all three frogs? Codon 6 for frogs A, I and J are identical in all three frogs. (16-18) B. Scan more frogs with orange skin until you are confident that you have identified the correct codon for orange skin. Describe the results: All orange skinned frogs have the codon 6, even the ones with no spots and different eye color. Therefore this result shows that codon 6 codes for the skin color which is orange.
The Term Paper on DNA Based Cryptography
ABSTRACT The biological research in the field of information technology paves the exploitation of storing capabilities, parallelism and also in conservative cryptography which enhances the security features for data transmission. DNA is the gene information which encodes information of all living beings. Though the DNA computing has its application in the field of huge information storage, massive ...
C. Which codon codes for orange skin in this frog population? Codon 6 codes for orange skin in this frog population (16-18 bases) 4. Analyze: Pick out two frogs with blue skin and nothing else in common. A. Which codon do they share? Codons 4 and 6 were common in frogs G and D. B. Scan two more frogs with blue skin to confirm you have identified the correct codon. Describe the results: In all 4 frogs which include G, D, K and H have codon 6 in common however; they do not have codon 4 in common. Codon 6 includes the bases of 16-18. Activity B (continued from previous page) 5.